/** @file

  Copyright (c) 2004  - 2019, Intel Corporation. All rights reserved.<BR>

  SPDX-License-Identifier: BSD-2-Clause-Patent

Module Name:

  PchInitPeim.c

Abstract:

  Do Early PCH platform initialization.


--*/

#include "PlatformEarlyInit.h"
#include "Ppi/PchPlatformPolicy.h"
#include "PchRegs.h"
#include <Ppi/PchUsbPolicy.h>
#include "Ppi/PchInit.h"
#include <Library/PcdLib.h>

EFI_GUID  gPchPlatformPolicyPpiGuid = PCH_PLATFORM_POLICY_PPI_GUID;

#define MC_PMSTS_OFFSET                 0xC

#define DEFAULT_BUS_INFO                0x2020


#define PCI_LPC_BASE    (0x8000F800)
#define PCI_LPC_REG(x)  (PCI_LPC_BASE + (x))
#define PCIEX_BASE_ADDRESS                        0xE0000000
#define PciD31F0RegBase                           PCIEX_BASE_ADDRESS + (UINT32) (31 << 15)

VOID
PchPolicySetupInit (
  IN CONST EFI_PEI_SERVICES **PeiServices,
  IN SYSTEM_CONFIGURATION   *SystemConfiguration
  );

VOID
PchInitInterrupt (
  IN SYSTEM_CONFIGURATION  *SystemConfiguration
  );

EFI_STATUS
InstallPeiPchUsbPolicy (
  IN CONST  EFI_PEI_SERVICES  **PeiServices
  );

#ifndef __GNUC__
#pragma warning (push)
#pragma warning (disable : 4245)
#pragma warning (pop)
#endif

UINT8
ReadCmosBank1Byte (
  IN UINT8                      Address
  )
{
  UINT8                           Data;

  IoWrite8(R_PCH_RTC_EXT_INDEX, Address);
  Data = IoRead8 (R_PCH_RTC_EXT_TARGET);
  return Data;
}

VOID
WriteCmosBank1Byte (
  IN UINT8                     Address,
  IN UINT8                     Data
  )
{
  IoWrite8(R_PCH_RTC_EXT_INDEX, Address);
  IoWrite8(R_PCH_RTC_EXT_TARGET, Data);
}

/**
  Turn off system if needed.

  @retval None.

**/
VOID
CheckPowerOffNow (
  VOID
  )
{
  UINT16  Pm1Sts;

  //
  // Read and check the ACPI registers
  //
  Pm1Sts = IoRead16 (ACPI_BASE_ADDRESS + R_PCH_ACPI_PM1_STS);
  if ((Pm1Sts & B_PCH_ACPI_PM1_STS_PWRBTN) == B_PCH_ACPI_PM1_STS_PWRBTN) {
    IoWrite16 (ACPI_BASE_ADDRESS + R_PCH_ACPI_PM1_STS, B_PCH_ACPI_PM1_STS_PWRBTN);
    IoWrite16 (ACPI_BASE_ADDRESS + R_PCH_ACPI_PM1_CNT, V_PCH_ACPI_PM1_CNT_S5);
    IoWrite16 (ACPI_BASE_ADDRESS + R_PCH_ACPI_PM1_CNT, V_PCH_ACPI_PM1_CNT_S5 + B_PCH_ACPI_PM1_CNT_SLP_EN);

    //
    // Should not return
    //
    CpuDeadLoop();
  }
}

VOID
ClearPowerState (
  IN SYSTEM_CONFIGURATION        *SystemConfiguration
  )
{
  UINT8   Data8;
  UINT16  Data16;
  UINT32  Data32;

  //
  // Check for PowerState option for AC power loss and program the chipset
  //

  //
  // Clear PWROK (Set to Clear)
  //
  MmioOr32 (PMC_BASE_ADDRESS + R_PCH_PMC_GEN_PMCON_1, B_PCH_PMC_GEN_PMCON_PWROK_FLR);

  //
  // Clear Power Failure Bit (Set to Clear)
  //
  // TODO: Check if it is OK to clear here
  //

  MmioOr32 (PMC_BASE_ADDRESS + R_PCH_PMC_GEN_PMCON_1, B_PCH_PMC_GEN_PMCON_SUS_PWR_FLR);

  //
  // Clear the GPE and PM enable
  //
  IoWrite16 (ACPI_BASE_ADDRESS + R_PCH_ACPI_PM1_EN, (UINT16) 0x00);
  IoWrite32 (ACPI_BASE_ADDRESS + R_PCH_ACPI_GPE0a_EN, (UINT32) 0x00);

  //
  // Halt the TCO timer
  //
  Data16 = IoRead16 (ACPI_BASE_ADDRESS + R_PCH_TCO_CNT);
  Data16 |= B_PCH_TCO_CNT_TMR_HLT;
  IoWrite16 (ACPI_BASE_ADDRESS + R_PCH_TCO_CNT, Data16);

  //
  // if NMI_NOW_STS is set
  // NMI NOW bit is "Write '1' to clear"
  //
  Data8 = MmioRead8(ILB_BASE_ADDRESS + R_PCH_ILB_GNMI);
  if ((Data8 & B_PCH_ILB_GNMI_NMINS) == B_PCH_ILB_GNMI_NMINS) {
    MmioOr8 (ILB_BASE_ADDRESS + R_PCH_ILB_GNMI, B_PCH_ILB_GNMI_NMIN);
  }

  //
  // Before we clear the TO status bit here we need to save the results in a CMOS bit for later use.
  //
  Data32 = IoRead32 (ACPI_BASE_ADDRESS + R_PCH_TCO_STS);
  if ((Data32 & B_PCH_TCO_STS_SECOND_TO) == B_PCH_TCO_STS_SECOND_TO)
  {
#if (defined(HW_WATCHDOG_TIMER_SUPPORT) && (HW_WATCHDOG_TIMER_SUPPORT != 0))
    WriteCmosBank1Byte (
      EFI_CMOS_PERFORMANCE_FLAGS,
      ReadCmosBank1Byte (EFI_CMOS_PERFORMANCE_FLAGS) | B_CMOS_TCO_WDT_RESET
      );
#endif
  }
}

/*++

  Clear any SMI status or wake status left over from boot.

**/
VOID
ClearSmiAndWake (
  VOID
  )
{
  UINT16  Pm1Sts;
  UINT32  Gpe0Sts;
  UINT32  SmiSts;

  //
  // Read the ACPI registers
  //
  Pm1Sts  = IoRead16 (ACPI_BASE_ADDRESS + R_PCH_ACPI_PM1_STS);
  Gpe0Sts = IoRead32 (ACPI_BASE_ADDRESS + R_PCH_ACPI_GPE0a_STS);
  SmiSts  = IoRead32 (ACPI_BASE_ADDRESS + R_PCH_SMI_STS);

  //
  // Register Wake up reason for S4.  This information is used to notify
  // WinXp of wake up reason because S4 wake up path doesn't keep SCI.
  // This is important for Viiv(Quick resume) platform.
  //

  //
  // First Clear CMOS S4 Wake up flag.
  //
  WriteCmosBank1Byte(CMOS_S4_WAKEUP_FLAG_ADDRESS, 0);

  //
  // Check wake up reason and set CMOS accordingly.  Currently checks
  // Power button, USB, PS/2.
  // Note : PS/2 wake up is using GPI13 (IO_PME).  This must be changed depending
  // on board design.
  //
  if ((Pm1Sts & B_PCH_ACPI_PM1_STS_PWRBTN) || (Gpe0Sts & (B_PCH_ACPI_GPE0a_STS_CORE_GPIO | B_PCH_ACPI_GPE0a_STS_SUS_GPIO))) {
    WriteCmosBank1Byte(CMOS_S4_WAKEUP_FLAG_ADDRESS, 1);
  }

  //
  // Clear any SMI or wake state from the boot
  //
  Pm1Sts = (B_PCH_ACPI_PM1_STS_PRBTNOR | B_PCH_ACPI_PM1_STS_PWRBTN);

  Gpe0Sts |=
    (
      B_PCH_ACPI_GPE0a_STS_CORE_GPIO |
      B_PCH_ACPI_GPE0a_STS_SUS_GPIO |
      B_PCH_ACPI_GPE0a_STS_PME_B0 |
      B_PCH_ACPI_GPE0a_STS_BATLOW |
      B_PCH_ACPI_GPE0a_STS_PCI_EXP |
      B_PCH_ACPI_GPE0a_STS_GUNIT_SCI |
      B_PCH_ACPI_GPE0a_STS_PUNIT_SCI |
      B_PCH_ACPI_GPE0a_STS_SWGPE |
      B_PCH_ACPI_GPE0a_STS_HOT_PLUG
    );

  SmiSts |=
    (
      B_PCH_SMI_STS_SMBUS |
      B_PCH_SMI_STS_PERIODIC |
      B_PCH_SMI_STS_TCO |
      B_PCH_SMI_STS_SWSMI_TMR |
      B_PCH_SMI_STS_APM |
      B_PCH_SMI_STS_ON_SLP_EN |
      B_PCH_SMI_STS_BIOS
    );

  //
  // Write them back
  //
  IoWrite16 (ACPI_BASE_ADDRESS + R_PCH_ACPI_PM1_STS, Pm1Sts);
  IoWrite32 (ACPI_BASE_ADDRESS + R_PCH_ACPI_GPE0a_STS, Gpe0Sts);
  IoWrite32 (ACPI_BASE_ADDRESS + R_PCH_SMI_STS, SmiSts);
}

/**
  Issue PCI-E Secondary Bus Reset

  @param Bus  Bus number of the bridge
  @param Dev  Devices number of the bridge
  @param Fun  Function number of the bridge

  @retval EFI_SUCCESS

**/
EFI_STATUS
PcieSecondaryBusReset (
  IN CONST EFI_PEI_SERVICES  **PeiServices,
  IN UINT8             Bus,
  IN UINT8             Dev,
  IN UINT8             Fun
  )
{
  EFI_PEI_STALL_PPI   *PeiStall;
  EFI_STATUS          Status;

  Status = (**PeiServices).LocatePpi (
                             PeiServices,
                             &gEfiPeiStallPpiGuid,
                             0,
                             NULL,
                    (void **)&PeiStall
                             );
  ASSERT_EFI_ERROR (Status);

  //
  // Issue secondary bus reset
  //
  MmPci16Or(0, Bus, Dev, Fun, PCI_BRIDGE_CONTROL_REGISTER_OFFSET, EFI_PCI_BRIDGE_CONTROL_RESET_SECONDARY_BUS);

  //
  // Wait 1ms
  //
  PeiStall->Stall (PeiServices, PeiStall, 1000);


  //
  // Clear the reset bit
  // Note: The PCIe spec suggests 100ms delay between clearing this bit and accessing
  // the device's config space. Since we will not access the config space until we enter DXE
  // we don't put delay expressly here.
  //
  MmPci16And(0, Bus, Dev, Fun, PCI_BRIDGE_CONTROL_REGISTER_OFFSET, ~(EFI_PCI_BRIDGE_CONTROL_RESET_SECONDARY_BUS));

  return EFI_SUCCESS;
}

/**
  Provide hard reset PPI service.
  To generate full hard reset, write 0x0E to ICH RESET_GENERATOR_PORT (0xCF9).

  @param PeiServices        General purpose services available to every PEIM.

  @retval Not return        System reset occured.
  @retval EFI_DEVICE_ERROR  Device error, could not reset the system.

**/
EFI_STATUS
EFIAPI
IchReset (
  IN CONST EFI_PEI_SERVICES          **PeiServices
  )
{
  IoWrite8 (
    R_PCH_RST_CNT,
    V_PCH_RST_CNT_HARDSTARTSTATE
    );

  IoWrite8 (
    R_PCH_RST_CNT,
    V_PCH_RST_CNT_HARDRESET
    );

  //
  // System reset occured, should never reach at this line.
  //
  ASSERT_EFI_ERROR (EFI_DEVICE_ERROR);
  CpuDeadLoop();

  return EFI_DEVICE_ERROR;
}

VOID
PchPlatformLpcInit (
  IN  CONST EFI_PEI_SERVICES          **PeiServices,
  IN SYSTEM_CONFIGURATION       *SystemConfiguration
  )
{
  EFI_BOOT_MODE BootMode;
  UINT8         Data8;
  UINT16                Data16;

  (*PeiServices)->GetBootMode(PeiServices, &BootMode);

  if ((BootMode != BOOT_ON_S3_RESUME)) {

    //
    // Clear all pending SMI. On S3 clear power button enable so it wll not generate an SMI
    //
    ClearSmiAndWake ();
  }

  ClearPowerState (SystemConfiguration);

  //
  // Need to set and clear SET bit (RTC_REGB Bit 7) as requested by the ICH EDS
  // early in POST after each power up directly after coin-cell battery insertion.
  // This is to avoid the UIP bit (RTC_REGA Bit 7) from stuck at "1".
  // The UIP bit status may be polled by software (i.e ME FW) during POST.
  //
  if (MmioRead8 (PMC_BASE_ADDRESS + R_PCH_PMC_GEN_PMCON_1) & B_PCH_PMC_GEN_PMCON_RTC_PWR_STS) {
  	//
    // Set and clear SET bit in RTC_REGB
    //
    IoWrite8(R_PCH_RTC_INDEX, R_PCH_RTC_REGISTERB);
    Data8 = IoRead8(R_PCH_RTC_TARGET);
    Data8 |= B_PCH_RTC_REGISTERB_SET;
    IoWrite8(R_PCH_RTC_TARGET, Data8);

    IoWrite8(R_PCH_RTC_INDEX, R_PCH_RTC_REGISTERB);
    Data8 &= (~B_PCH_RTC_REGISTERB_SET);
    IoWrite8(R_PCH_RTC_TARGET, Data8);

    //
    // Clear the UIP bit in RTC_REGA
    //
    IoWrite8(R_PCH_RTC_INDEX, R_PCH_RTC_REGISTERA);
    IoWrite8(R_PCH_RTC_TARGET, 0x00);
  }

  //
  // Disable SERR NMI and IOCHK# NMI in port 61
  //
  Data8 = IoRead8 (R_PCH_NMI_SC);
  IoWrite8(R_PCH_NMI_SC, (UINT8) (Data8 | B_PCH_NMI_SC_PCI_SERR_EN | B_PCH_NMI_SC_IOCHK_NMI_EN));

  //
  // Enable Bus Master, I/O, Mem, and SERR on LPC bridge
  //
  Data16 = PchLpcPciCfg16 (R_PCH_LPC_COMMAND);
  MmioWrite16 (
    MmPciAddress (0,
      DEFAULT_PCI_BUS_NUMBER_PCH,
      PCI_DEVICE_NUMBER_PCH_LPC,
      PCI_FUNCTION_NUMBER_PCH_LPC,
      R_PCH_LPC_COMMAND
    ),
    (Data16 |
     B_PCH_LPC_COMMAND_IOSE |
     B_PCH_LPC_COMMAND_MSE |
     B_PCH_LPC_COMMAND_BME |
     B_PCH_LPC_COMMAND_SERR_EN)
  );

  //
  // Set Stretch S4 to 1-2s per marketing request.
  // Note: This register is powered by RTC well.
  //
  MmioAndThenOr8 (
    PMC_BASE_ADDRESS + R_PCH_PMC_GEN_PMCON_1 ,
    (UINT8) (~B_PCH_PMC_GEN_PMCON_SLP_S4_MAW),
    (UINT8) (B_PCH_PMC_GEN_PMCON_SLP_S4_ASE | V_PCH_PMC_GEN_PMCON_SLP_S4_MAW_4S)
    );

}

#define V_PCH_ILB_IRQE_UARTIRQEN_IRQ3             BIT3 // UART IRQ3 Enable

VOID
UARTInit (
  IN SYSTEM_CONFIGURATION        *SystemConfiguration
  )
{
  if (0) { // for fix cr4 issue
    //
    // Program and enable PMC Base.
    //
    IoWrite32 (0xCF8,  PCI_LPC_REG(R_PCH_LPC_PMC_BASE));
    IoWrite32 (0xCFC,  (PMC_BASE_ADDRESS | B_PCH_LPC_PMC_BASE_EN));

    if( (SystemConfiguration->PcuUart1 == 1) &&
        (SystemConfiguration->LpssHsuart0Enabled == 0)){
      //
      // Enable COM1 for debug message output.
      //
      MmioOr32 (PMC_BASE_ADDRESS + R_PCH_PMC_GEN_PMCON_1, BIT24);

      //
      //Enable internal UART3 port(COM1)
      //
      MmioOr8 (ILB_BASE_ADDRESS + R_PCH_ILB_IRQE, (UINT8) V_PCH_ILB_IRQE_UARTIRQEN_IRQ3);
      MmioOr32 (IO_BASE_ADDRESS + 0x0520, 0x01); // UART3_RXD-L
      MmioOr32 (IO_BASE_ADDRESS + 0x0530, 0x01); // UART3_TXD-0
      MmioOr8 (PciD31F0RegBase + R_PCH_LPC_UART_CTRL, (UINT8) B_PCH_LPC_UART_CTRL_COM1_EN);
    } else {
    	//
      //Disable UART3(COM1)
      //
      MmioAnd8 (ILB_BASE_ADDRESS + R_PCH_ILB_IRQE, (UINT8) ~V_PCH_ILB_IRQE_UARTIRQEN_IRQ3);
      MmioAnd32 (IO_BASE_ADDRESS + 0x0520, ~(UINT32)0x07);
      MmioAnd32 (IO_BASE_ADDRESS + 0x0530, ~(UINT32)0x07);
      MmioAnd8 (PciD31F0RegBase + R_PCH_LPC_UART_CTRL, (UINT8) ~B_PCH_LPC_UART_CTRL_COM1_EN);


      if (SystemConfiguration->LpssHsuart0Enabled == 1){
        //
        //Valleyview BIOS Specification Vol2,17.2
        //LPSS_UART1 C set each pad PAD_CONF0.Func_Pin_Mux to function 1:
        //
        MmioAnd8 (IO_BASE_ADDRESS + 0x0090, (UINT8)~0x07);
        MmioOr8 (IO_BASE_ADDRESS + 0x0090, 0x01);
        MmioAnd8 (IO_BASE_ADDRESS + 0x00D0, (UINT8)~0x07);
        MmioOr8 (IO_BASE_ADDRESS + 0x00D0, 0x01);

      }
    }


    DEBUG ((EFI_D_ERROR, "EnableInternalUart\n"));
  } else {
  	//
    // If SIO UART interface selected
    //Disable internal UART port(COM1)
    //
    if (0) {; // For fix CR4 issue
      MmioAnd8 (ILB_BASE_ADDRESS + R_PCH_ILB_IRQE, (UINT8) ~V_PCH_ILB_IRQE_UARTIRQEN_IRQ3);
      MmioAnd8 (IO_BASE_ADDRESS + 0x0090, (UINT8)~0x07);
      MmioAnd8 (IO_BASE_ADDRESS + 0x00D0, (UINT8)~0x07);
      MmioAnd8 (PciD31F0RegBase + R_PCH_LPC_UART_CTRL, (UINT8) ~B_PCH_LPC_UART_CTRL_COM1_EN);

    }
  }
}

VOID
IchRcrbInit (
  IN CONST EFI_PEI_SERVICES            **PeiServices,
  IN SYSTEM_CONFIGURATION        *SystemConfiguration
  )
{
  EFI_BOOT_MODE                   BootMode;

  (*PeiServices)->GetBootMode(PeiServices, &BootMode);

  //
  // If not recovery or flash update boot path. set the BIOS interface lock down bit.
  // It locks the top swap bit and BIOS boot strap bits from being changed.
  //
  if ((BootMode != BOOT_IN_RECOVERY_MODE) && (BootMode != BOOT_ON_FLASH_UPDATE)) {
    MmioOr8 (RCBA_BASE_ADDRESS + R_PCH_RCRB_GCS, B_PCH_RCRB_GCS_BILD);
  }

  //
  // Disable the Watchdog timer expiration from causing a system reset
  //
  MmioOr8 (PMC_BASE_ADDRESS + R_PCH_PMC_PM_CFG, B_PCH_PMC_PM_CFG_NO_REBOOT);

  //
  // Initial RCBA according to the PeiRCBA table
  //
  if (BootMode == BOOT_ON_S3_RESUME) {
    //
    // We are resuming from S3
    // Enable HPET if enabled in Setup
    // ICH Config register Offset 0x3404 bit 7 (Enable) = 1,
    // Bit 1:0 (Mem I/O address) = 0 (0xFED00000)
    //
    MmioOr8 (R_PCH_PCH_HPET + R_PCH_PCH_HPET_GCFG, B_PCH_PCH_HPET_GCFG_EN);

  }

}


EFI_STATUS
PlatformPchInit (
  IN SYSTEM_CONFIGURATION        *SystemConfiguration,
  IN CONST EFI_PEI_SERVICES      **PeiServices,
  IN UINT16                      PlatformType
  )
{
  EFI_STATUS     Status;
  EFI_BOOT_MODE  BootMode;

  Status = PeiServicesGetBootMode (&BootMode);
  ASSERT_EFI_ERROR (Status);

  IchRcrbInit (PeiServices, SystemConfiguration);

  if (BootMode == BOOT_IN_RECOVERY_MODE) {
    InstallPeiPchUsbPolicy(PeiServices);
  }

  //
  // PCH Policy Initialization based on Setup variable.
  //
  PchPolicySetupInit (PeiServices, SystemConfiguration);

  UARTInit(SystemConfiguration);

  PchPlatformLpcInit (PeiServices, SystemConfiguration);

  return EFI_SUCCESS;
}

/**

  Returns the state of A16 inversion

  @retval TRUE    A16 is inverted
  @retval FALSE   A16 is not inverted

**/
BOOLEAN
IsA16Inverted (
  )
{
  UINT8  Data;
  Data = MmioRead8 (RCBA_BASE_ADDRESS + R_PCH_RCRB_GCS);
  return (Data & B_PCH_RCRB_GCS_TS) ? TRUE : FALSE;
}

VOID
PchPolicySetupInit (
  IN CONST EFI_PEI_SERVICES **PeiServices,
  IN SYSTEM_CONFIGURATION   *SystemConfiguration
  )
{
  EFI_STATUS                  Status;
  EFI_PEI_PPI_DESCRIPTOR      *PchPlatformPolicyPpiDesc;
  PCH_PLATFORM_POLICY_PPI     *PchPlatformPolicyPpi;
  PCH_HPET_CONFIG             *HpetConfig;
  PCH_PCIE_CONFIG             *PcieConfig;
  UINT8                       Index;
  PCH_IOAPIC_CONFIG           *IoApicConfig;
  PCH_LPSS_CONFIG             *LpssConfig;
  UINT32                      SpiHsfsReg;
  UINT32                      SpiFdodReg;

//
// Disable codec ALC-262
//
  UINT32                      IoBase;

  //
  // Install Pch Platform Policy PPI. As we depend on Pch Init PPI so we are executed after
  // PchInit PEIM. Thus we can insure PCH Initialization is performed when we install the Pch Platform Policy PPI,
  // as PchInit PEIM registered a notification function on our policy PPI.
  //
  // --cr-- For better code structure / modularity, we should use a notification function on Pch Init PPI to perform
  // actions that depend on PchInit PEIM's initialization.
  //
  //Todo: confirm if we need update to PCH_PLATFORM_POLICY_PPI_REVISION_5
  //
  DEBUG ((EFI_D_ERROR, "PchPolicySetupInit() - Start\n"));

  Status = (*PeiServices)->AllocatePool (PeiServices, sizeof (EFI_PEI_PPI_DESCRIPTOR), (void **)&PchPlatformPolicyPpiDesc);
  ASSERT_EFI_ERROR (Status);

  Status = (*PeiServices)->AllocatePool (PeiServices, sizeof (PCH_PLATFORM_POLICY_PPI), (void **)&PchPlatformPolicyPpi);
  ASSERT_EFI_ERROR (Status);

  Status = (*PeiServices)->AllocatePool (PeiServices, sizeof (PCH_HPET_CONFIG), (void **)&HpetConfig);
  ASSERT_EFI_ERROR (Status);

  Status = (*PeiServices)->AllocatePool (PeiServices, sizeof (PCH_PCIE_CONFIG), (void **)&PcieConfig);
  ASSERT_EFI_ERROR (Status);

  Status = (*PeiServices)->AllocatePool (PeiServices, sizeof (PCH_IOAPIC_CONFIG), (void **)&IoApicConfig);
  ASSERT_EFI_ERROR (Status);

  Status = (*PeiServices)->AllocatePool (PeiServices, sizeof (PCH_LPSS_CONFIG), (void **)&LpssConfig);
  ASSERT_EFI_ERROR (Status);

  PchPlatformPolicyPpi->Revision                = PCH_PLATFORM_POLICY_PPI_REVISION_1;
  PchPlatformPolicyPpi->BusNumber               = DEFAULT_PCI_BUS_NUMBER_PCH;
  PchPlatformPolicyPpi->SpiBase                 = SPI_BASE_ADDRESS;
  PchPlatformPolicyPpi->PmcBase                 = PMC_BASE_ADDRESS;
  PchPlatformPolicyPpi->IoBase                  = IO_BASE_ADDRESS;
  PchPlatformPolicyPpi->IlbBase                 = ILB_BASE_ADDRESS;
  PchPlatformPolicyPpi->PUnitBase               = PUNIT_BASE_ADDRESS;
  PchPlatformPolicyPpi->MphyBase                = MPHY_BASE_ADDRESS;
  PchPlatformPolicyPpi->Rcba                    = RCBA_BASE_ADDRESS;
  PchPlatformPolicyPpi->AcpiBase                = ACPI_BASE_ADDRESS;
  PchPlatformPolicyPpi->GpioBase                = GPIO_BASE_ADDRESS;
  PchPlatformPolicyPpi->SataMode                = SystemConfiguration->SataType;
  PchPlatformPolicyPpi->EnableRmh               = SystemConfiguration->PchUsbRmh;

  PchPlatformPolicyPpi->EhciPllCfgEnable        = SystemConfiguration->EhciPllCfgEnable;


  PchPlatformPolicyPpi->HpetConfig              = HpetConfig;
  PchPlatformPolicyPpi->PcieConfig              = PcieConfig;
  PchPlatformPolicyPpi->IoApicConfig            = IoApicConfig;

  PchPlatformPolicyPpi->HpetConfig->Enable      = SystemConfiguration->Hpet;
  PchPlatformPolicyPpi->HpetConfig->Base        = HPET_BASE_ADDRESS;
  PchPlatformPolicyPpi->IoApicConfig->IoApicId  = 0x01;

  //
  // Set LPSS configuration according to setup value.
  //
  PchPlatformPolicyPpi->LpssConfig->LpssPciModeEnabled   = SystemConfiguration->LpssPciModeEnabled;

  PchPlatformPolicyPpi->LpssConfig->Dma1Enabled    = SystemConfiguration->LpssDma1Enabled;
  PchPlatformPolicyPpi->LpssConfig->I2C0Enabled    = SystemConfiguration->LpssI2C0Enabled;
  PchPlatformPolicyPpi->LpssConfig->I2C1Enabled    = SystemConfiguration->LpssI2C1Enabled;
  PchPlatformPolicyPpi->LpssConfig->I2C2Enabled    = SystemConfiguration->LpssI2C2Enabled;
  PchPlatformPolicyPpi->LpssConfig->I2C3Enabled    = SystemConfiguration->LpssI2C3Enabled;
  PchPlatformPolicyPpi->LpssConfig->I2C4Enabled    = SystemConfiguration->LpssI2C4Enabled;
  PchPlatformPolicyPpi->LpssConfig->I2C5Enabled    = SystemConfiguration->LpssI2C5Enabled;
  PchPlatformPolicyPpi->LpssConfig->I2C6Enabled    = SystemConfiguration->LpssI2C6Enabled;

  PchPlatformPolicyPpi->LpssConfig->Dma0Enabled    = SystemConfiguration->LpssDma0Enabled;;
  PchPlatformPolicyPpi->LpssConfig->Pwm0Enabled    = SystemConfiguration->LpssPwm0Enabled;
  PchPlatformPolicyPpi->LpssConfig->Pwm1Enabled    = SystemConfiguration->LpssPwm1Enabled;
  PchPlatformPolicyPpi->LpssConfig->Hsuart0Enabled = SystemConfiguration->LpssHsuart0Enabled;
  PchPlatformPolicyPpi->LpssConfig->Hsuart1Enabled = SystemConfiguration->LpssHsuart1Enabled;
  PchPlatformPolicyPpi->LpssConfig->SpiEnabled     = SystemConfiguration->LpssSpiEnabled;


  for (Index = 0; Index < PCH_PCIE_MAX_ROOT_PORTS; Index++) {
    PchPlatformPolicyPpi->PcieConfig->PcieSpeed[Index] = SystemConfiguration->PcieRootPortSpeed[Index];
  }

  SpiHsfsReg = MmioRead32 (SPI_BASE_ADDRESS + R_PCH_SPI_HSFS);
  if ((SpiHsfsReg & B_PCH_SPI_HSFS_FDV) == B_PCH_SPI_HSFS_FDV) {
    MmioWrite32 (SPI_BASE_ADDRESS + R_PCH_SPI_FDOC, V_PCH_SPI_FDOC_FDSS_FSDM);
    SpiFdodReg = MmioRead32 (SPI_BASE_ADDRESS + R_PCH_SPI_FDOD);
    if (SpiFdodReg == V_PCH_SPI_FDBAR_FLVALSIG) {
    }
  //
  // Disable codec ALC-262
  //
  if (SystemConfiguration->DisableCodec262 == 1) {
      IoBase = MmioRead32 (MmPciAddress (0,
                        PchPlatformPolicyPpi->BusNumber,
                        PCI_DEVICE_NUMBER_PCH_LPC,
                        PCI_FUNCTION_NUMBER_PCH_LPC,
                        0
                      ) + R_PCH_LPC_IO_BASE) & B_PCH_LPC_IO_BASE_BAR;
      MmioAnd32 ((UINTN) (IoBase + 0x270), (UINT32) (~0x07));
  }
  }

  PchPlatformPolicyPpiDesc->Flags = EFI_PEI_PPI_DESCRIPTOR_PPI | EFI_PEI_PPI_DESCRIPTOR_TERMINATE_LIST;
  PchPlatformPolicyPpiDesc->Guid = &gPchPlatformPolicyPpiGuid;
  PchPlatformPolicyPpiDesc->Ppi = PchPlatformPolicyPpi;

  //
  // Install PCH Platform Policy PPI
  //
  Status = (**PeiServices).InstallPpi (
              PeiServices,
              PchPlatformPolicyPpiDesc
              );
  ASSERT_EFI_ERROR (Status);

  DEBUG ((EFI_D_ERROR, "PchPolicySetupInit() - End\n"));
}

EFI_STATUS
InstallPeiPchUsbPolicy (
  IN CONST  EFI_PEI_SERVICES  **PeiServices
  )
{
  EFI_STATUS              Status = EFI_SUCCESS;

  EFI_PEI_PPI_DESCRIPTOR  *PeiPchUsbPolicyPpiDesc;
  PCH_USB_POLICY_PPI      *PeiPchUsbPolicyPpi;
  PCH_USB_CONFIG          *UsbConfig;

  DEBUG ((EFI_D_INFO, "InstallPeiPchUsbPolicy...\n"));

  //
  // Allocate descriptor and PPI structures.  Since these are dynamically updated
  // we cannot do a global variable PPI.
  //
  Status = (*PeiServices)->AllocatePool (PeiServices, sizeof (EFI_PEI_PPI_DESCRIPTOR), (void **)&PeiPchUsbPolicyPpiDesc);


  Status = (*PeiServices)->AllocatePool (PeiServices, sizeof (PCH_USB_POLICY_PPI), (void **)&PeiPchUsbPolicyPpi);



  Status = (*PeiServices)->AllocatePool (PeiServices, sizeof (PCH_USB_CONFIG), (void **)&UsbConfig);


  //
  // Initiate PCH USB policy.
  //
  PeiPchUsbPolicyPpi->Revision = PCH_USB_POLICY_PPI_REVISION_1;
  UsbConfig->Usb20Settings[0].Enable  = PCH_DEVICE_ENABLE;
  UsbConfig->UsbPerPortCtl            = PCH_DEVICE_DISABLE;
  UsbConfig->Ehci1Usbr                = PCH_DEVICE_DISABLE;

  UsbConfig->Usb20OverCurrentPins[0] = PchUsbOverCurrentPin0;

  UsbConfig->Usb20OverCurrentPins[1] = PchUsbOverCurrentPin0;

  UsbConfig->Usb20OverCurrentPins[2] = PchUsbOverCurrentPin1;

  UsbConfig->Usb20OverCurrentPins[3] = PchUsbOverCurrentPin1;


  //
  // Enable USB Topology control and program the topology setting for every USB port
  // See Platform Design Guide for description of topologies
  //
    //
    // Port 0: ~10.9", Port 1: ~10.1", Port 2: ~11.2", Port 3: ~11.5", Port 4: ~3.7", Port 5: ~2.7", Port 6: ~4.1"
    // Port 7: ~4.5", Port 8: ~10.7", Port 9: ~10.5", Port 10: ~4.2", Port 11: ~4.3", Port 12: ~3.1", Port 13: ~2.9"
    //

    //
    // Port 0: ~3.5", Port 1: ~4.1", Port 2: ~4.6", Port 3: ~4.6", Port 4: ~12.5", Port 5: ~12", Port 6: ~5.1"
    // Port 7: ~5.1", Port 8: ~4.1", Port 9: ~4.1", Port 10: ~14.5", Port 11: ~12.8", Port 12: ~12.9", Port 13: ~14.6"
    //
  UsbConfig->Usb20PortLength[0]  = 0x53;
  UsbConfig->Usb20PortLength[1]  = 0x49;
  UsbConfig->Usb20PortLength[2]  = 0x47;
  UsbConfig->Usb20PortLength[3]  = 0x80;

  PeiPchUsbPolicyPpi->Mode = EHCI_MODE;

  PeiPchUsbPolicyPpi->EhciMemBaseAddr = PcdGet32(PcdPeiIchEhciControllerMemoryBaseAddress);

  PeiPchUsbPolicyPpi->EhciMemLength   = (UINT32) 0x400 * PchEhciControllerMax;

  PeiPchUsbPolicyPpi->XhciMemBaseAddr = 0;

  PeiPchUsbPolicyPpi->UsbConfig       = UsbConfig;

  PeiPchUsbPolicyPpiDesc->Flags       = EFI_PEI_PPI_DESCRIPTOR_PPI | EFI_PEI_PPI_DESCRIPTOR_TERMINATE_LIST;

  PeiPchUsbPolicyPpiDesc->Guid        = &gPchUsbPolicyPpiGuid;

  PeiPchUsbPolicyPpiDesc->Ppi         = PeiPchUsbPolicyPpi;

  //
  // Install PCH USB Policy PPI
  //
  Status = (**PeiServices).InstallPpi (PeiServices, PeiPchUsbPolicyPpiDesc);

  return Status;
}
